Peer-reviewed publications


  • 13. Gomez-Rivas, E., Griera, A., Llorens, M.-G., Bons, P.D., Lebensohn, R. 2017. Subgrain rotation recrystallization during shearing: insights from full-field numerical simulations of halite polycrystals, in press. [link] [PDF]
  • 12. Llorens, M.-G., Griera, A., Steinbach, F., Bons, P.D., Gomez-Rivas, E., Jansen, D., Lebensohn, R. and Weikusat, I. 2017. Dynamic recrystallisation during deformation of polycrystalline ice: insights from numerical simulations, Philosophical Transactions of the Royal Society A, 375:20150346. [link]
  • 11. Steinbach, F., Bons, P.D., Griera, A., Jansen, D., Llorens, M.-G., Roessiger, J. and Weikusat, I. 2016. Strain localization and dynamic recrystallization in the ice-air aggregate: A numerical approach, The Cryosphere, 10, 3071–3089. [link]
  • 10. Llorens, M.-G., Griera, A., Bons, P.D., Lebensohn, R., Jansen, D., Evans, L.A. and Weikusat, I. 2016. Full-field predictions of ice dynamic recrystallisation under simple shear conditions, Earth and Planetary Science Letters, 450, 233-242. DOI:10.1016/j.epsl.2016.06.045.[link]
  • 9. Bons, P.D., Jansen, D., Mündel, F., Bauer, C. C., Binder, T., Eisen, O., Jessell, M.W., 2016. Llorens,  M.-G., Steinbach, F., Steinhage, D. and Weikusat, I. 2016. Converging flow and anisotropy cause large-scale folding in Greenland’s ice sheet. Nature Communications 7, 11427. DOI:10.1038/ncomms11427. [link]
  • 8. Jansen, D., Llorens, M.-G., Westhoff, J., Steinbach, F., Kipfstuhl, S., Bons, P.D., Griera, A. and Weikusat, I. 2016. Small-scale disturbances in the stratigraphy of the NEEM ice core: observations and numerical model simulations. The Cryosphere, 10, 359-370. [link]
  • 7. Llorens, M.-G., Griera, A., Bons, P.D., Roessiger, J., Lebensohn, R., Evans, L.A. and Weikusat, I. 2016. Dynamic recrystallisation of ice aggregates during co-axial viscoplastic deformation: a numerical approach. Journal of Glaciology, 62(232), 359-377. DOI: 10.1017/jog.2016.28. [link]
  • 6. Griera, A., Gomez-Rivas, E., Llorens, M.-G., Bons, P.D. and Lebensohn, R. 2015. Microstructural evolution of polycrystalline materials in simple shear: insights from full-field numerical simulations. Geotectonic Research, 97, 37–39. [link]
  • 5. Gomez-Rivas, E., Griera, A. and Llorens, M.-G. 2015. Fracturing of ductile anisotropic multilayers: influence of material strength. Solid Earth, 6, 497-514. [link]
  • 4. Llorens, M-.G., Bons, P.D., Griera, A. and Gomez-Rivas, E. 2014. Mechanics of fold development in pure and simple shear. In: Pardo-Igúzquiza, E., Guardiola-Albert, C., Heredia, J., Moreno-Merino, L., Durán, J.J. and Vargas-Guzmán, J.A. (Eds). Mathematics of Planet Earth. Lecture Notes in Earth System Sciences, pp. 763-766. Springer. [link]
  • 3. Griera, A., Llorens, M-.G., Gomez-Rivas, E., Bons, P.D., Jessell, M.W., Evans, L.A. and Lebensohn, R. 2013. Numerical modelling of porphyroclast and porphyroblast rotation in anisotropic rocks. Tectonophysics 587, 4-29. [link]
  • 2. Llorens, M-.G., Bons, P.D., Griera, A. and Gomez-Rivas, E. 2013. When do folds unfold during progressive shear?. Geology 41, 563-566. [link]
  • 1. Llorens, M-.G., Bons, P.D., Griera, A., Gomez-Rivas, E. and Evans, L.A. 2013. Single layer folding in simple shear. Journal of Structural Geology 50, 209-220. [link]